ºÝºÝߣ

ºÝºÝߣShare a Scribd company logo

Wed22april

•Download as DOCX, PDF•
•
Bimal Kishore
Bimal Kishore

The document provides information about a computer class on networks and data communication. It discusses the learning objectives of the class which are to understand what a computer network is, the need for networks, different types of networks, and network topologies. It then defines different types of networks including personal area networks, local area networks, campus area networks, metropolitan area networks, and wide area networks. It also describes the four main network topologies of bus, ring, star, and mesh. Students are assigned questions on these topics for the next class.

1 of 8
Download to read offline
SYMBIOSIS PUBLIC SCHOOL BARWADA, DHANBAD STD-VIII (A+B) SUB-COMPUTER Chapter 1(Network and Data Communication) Date-22-april-2020 Time-wed/9.30 to 10.20 am Zoom Id and pwd:- 518-747-8017 and Computer12 Learning objectives- 1. What is Computer network? 2. Need for the Computer Network? 3. Types of Computer Network? 4. Topologies? Computer networks have shrunk the world and brought people together. They have extended the power of a computer beyond the expanse of a room. Advancements in networking techniques, protocols and soon have made a profound impact in areas of communication and learning. The size of computer networks may vary. The Internet is an example of a computer network that spreads all across the world. The Internet is also referred to as the worldwide network of computers and it is growing at a rapid rate. A computer network consists of two or more computers that are linked in order to share resources such as printers, exchange files and allow communication. Let us learn more about computer networks. NEED FOR COMPUTER NETWORKS Nowadays, computer networks are a vital part of any organisation. Some of the advantages of computer networks are: ï‚· Resource Sharing: All computers in a network can share resources such as printers, fax machines, modems and scanners.
ï‚· File Sharing and Remote Database Access: A computer network allows sharing of files and access to remote database. We can easily access the files stored on various computers on a network. Also, networking allows many people to work simultaneously on the data stored in a database. ï‚· Ease of Communication: Computer networks allow people to communicate through emails and instant messaging facilities. This makes the transmission of information easier, more efficient and less expensive. ï‚· TYPES OF COMPUTER NETWORKS The following are the types of networks based on the geographical area covered or scale of the network. Personal Area Network (PAN): A PAN is a computer network organised around a person. It is used for communication between devices such as phones, personal digital assistants, printers and laptops that are in close proximity. We can use these networks to transfer files and photos between the various devices ï‚· Local Area Network (LAN): A LAN is a computer network that is limited to a local area such as a laboratory, a school or an office building. Cables (wires) or low-power radiowaves (wireless) are used for the connections in a LAN. A wireless LAN (or WLAN) is also sometimes
called LAWN (Local Area Wireless Network). ï‚· Campus Area Network (CAN): A CAN is a computer network that connects multiple local area networks (LAN) in a limited geographical area. A CAN is smaller than a wide area network (WAN) or metropolitan area network (MAN). It can be set up by a college, company and so on. ï‚· Metropolitan Area Network (MAN): A MAN is a computer network that usually covers a larger area than a LAN. For example, a network that connects two offices in a city, a neighbourhood area and so on.
ï‚· Wide Area Network (WAN): A WAN is a computer network that spans a wide geographical area. A WAN may be spread across cities, countries and continents. A WAN is formed by connecting LANs and MANs. Computers or networks across long distances are usually connected with optical fibre cables, satellite radio links or microwave radio links.
NETWORK TOPOLOGIES Topology refers to the layout pattern in which various computers are connected to one another to form a network. The computers on a network are also referred to as nodes. There are four main types of topologies. They are: ï‚· Bus Topology: In bus topology, all the computers are connected to a single cable called the bus (Fig. 1.6). The transmission of data from any computer travels through the length of the bus in both the directions and can be received by all other computers on the network. If the address of a computer is that of the intended recipient, it accepts the data; otherwise, the data is rejected. The advantage of the bus topology is that it is quite easy to set up. However, a network cannot function if there are breaks in the bus. Ring Topology: In ring topology, each computer is connected to two other computers so as to form a closed ring-like structure (Fig. 1.7). In this topology, data
is transmitted in one direction only. The disadvantage of the ring network is that the breakdown of any one computer on a ring can disable the entire system or network. ï‚· Star Topology: In star topology, all the computers are connected to a central computer or a central node (Fig. 1.8). The data to be exchanged between any two computers passes through the central node. The central node controls all the activities of the nodes. More computers can be easily added to the network. The breakdown of computers, except the central node, does not affect the functioning of the network. However, the failure of the central node disables the communication across the entire network.
ï‚· Mesh Topology: In mesh topology, every computer is connected to every other computer on the network. Full mesh topology (Fig. 1.9) is very expensive to implement. Normally, partial mesh topology is implemented in which a computer is connected to a few other computers in the network (Fig. 1.10). Assignment for the Next class Q1. What is computer network? Q2. Differentiate between Bus topology and Ring Topology? Q3. What do you mean by topology? Define Star Topology?
Q4. What is the need for Computer Networking? Topic for Next Class: 1. Network Architecture? 2. Basic Components of Network?

More Related Content

Wed22april

  • 1. SYMBIOSIS PUBLIC SCHOOL BARWADA, DHANBAD STD-VIII (A+B) SUB-COMPUTER Chapter 1(Network and Data Communication) Date-22-april-2020 Time-wed/9.30 to 10.20 am Zoom Id and pwd:- 518-747-8017 and Computer12 Learning objectives- 1. What is Computer network? 2. Need for the Computer Network? 3. Types of Computer Network? 4. Topologies? Computer networks have shrunk the world and brought people together. They have extended the power of a computer beyond the expanse of a room. Advancements in networking techniques, protocols and soon have made a profound impact in areas of communication and learning. The size of computer networks may vary. The Internet is an example of a computer network that spreads all across the world. The Internet is also referred to as the worldwide network of computers and it is growing at a rapid rate. A computer network consists of two or more computers that are linked in order to share resources such as printers, exchange files and allow communication. Let us learn more about computer networks. NEED FOR COMPUTER NETWORKS Nowadays, computer networks are a vital part of any organisation. Some of the advantages of computer networks are: ï‚· Resource Sharing: All computers in a network can share resources such as printers, fax machines, modems and scanners.
  • 2. ï‚· File Sharing and Remote Database Access: A computer network allows sharing of files and access to remote database. We can easily access the files stored on various computers on a network. Also, networking allows many people to work simultaneously on the data stored in a database. ï‚· Ease of Communication: Computer networks allow people to communicate through emails and instant messaging facilities. This makes the transmission of information easier, more efficient and less expensive. ï‚· TYPES OF COMPUTER NETWORKS The following are the types of networks based on the geographical area covered or scale of the network. Personal Area Network (PAN): A PAN is a computer network organised around a person. It is used for communication between devices such as phones, personal digital assistants, printers and laptops that are in close proximity. We can use these networks to transfer files and photos between the various devices ï‚· Local Area Network (LAN): A LAN is a computer network that is limited to a local area such as a laboratory, a school or an office building. Cables (wires) or low-power radiowaves (wireless) are used for the connections in a LAN. A wireless LAN (or WLAN) is also sometimes
  • 3. called LAWN (Local Area Wireless Network). ï‚· Campus Area Network (CAN): A CAN is a computer network that connects multiple local area networks (LAN) in a limited geographical area. A CAN is smaller than a wide area network (WAN) or metropolitan area network (MAN). It can be set up by a college, company and so on. ï‚· Metropolitan Area Network (MAN): A MAN is a computer network that usually covers a larger area than a LAN. For example, a network that connects two offices in a city, a neighbourhood area and so on.
  • 4. ï‚· Wide Area Network (WAN): A WAN is a computer network that spans a wide geographical area. A WAN may be spread across cities, countries and continents. A WAN is formed by connecting LANs and MANs. Computers or networks across long distances are usually connected with optical fibre cables, satellite radio links or microwave radio links.
  • 5. NETWORK TOPOLOGIES Topology refers to the layout pattern in which various computers are connected to one another to form a network. The computers on a network are also referred to as nodes. There are four main types of topologies. They are: ï‚· Bus Topology: In bus topology, all the computers are connected to a single cable called the bus (Fig. 1.6). The transmission of data from any computer travels through the length of the bus in both the directions and can be received by all other computers on the network. If the address of a computer is that of the intended recipient, it accepts the data; otherwise, the data is rejected. The advantage of the bus topology is that it is quite easy to set up. However, a network cannot function if there are breaks in the bus. Ring Topology: In ring topology, each computer is connected to two other computers so as to form a closed ring-like structure (Fig. 1.7). In this topology, data
  • 6. is transmitted in one direction only. The disadvantage of the ring network is that the breakdown of any one computer on a ring can disable the entire system or network. ï‚· Star Topology: In star topology, all the computers are connected to a central computer or a central node (Fig. 1.8). The data to be exchanged between any two computers passes through the central node. The central node controls all the activities of the nodes. More computers can be easily added to the network. The breakdown of computers, except the central node, does not affect the functioning of the network. However, the failure of the central node disables the communication across the entire network.
  • 7. ï‚· Mesh Topology: In mesh topology, every computer is connected to every other computer on the network. Full mesh topology (Fig. 1.9) is very expensive to implement. Normally, partial mesh topology is implemented in which a computer is connected to a few other computers in the network (Fig. 1.10). Assignment for the Next class Q1. What is computer network? Q2. Differentiate between Bus topology and Ring Topology? Q3. What do you mean by topology? Define Star Topology?
  • 8. Q4. What is the need for Computer Networking? Topic for Next Class: 1. Network Architecture? 2. Basic Components of Network?